Shanghai, February 24th, 2014
Dear Editor,
On March 31st, 2013, the National Health and Family Planning Commission (NHFPC) of China announced that three fatal cases of rapidly progressive pneumonia, respiratory failure and acute respiratory distress syndrome (ARDS) were confirmed to be infected with a novel reassortant avian-origin influenza A (H7N9) virus9. As of February 18th, 2014, a total of 347 laboratory-confirmed cases and 109 deaths had been reported in mainland China7. The novel avian influenza virus has caused global concern as a potential pandemic threat.
According to recent studies, the elderly have increased risk for H7N9 virus infection2,3. Furthermore, patients with underlying diseases are significantly associated with the infection1–3. It is reported that the median age of 111 patients with H7N9 virus infection was 61 and 42.3% of them were 65 years of age or older3. A total of 61.3% of the patients had one or more underlying medical conditions, such as hypertension, diabetes, coronary heart disease, chronic obstructive pulmonary disease (COPD) and so on3.
Human infection with H7N9 virus has been reported sporadically and is mainly associated with exposures to poultry1,4. However, no history of recent close contact with poultry was found in some cases2,8. Indeed, H7N9 virus had been detected among live poultry at local markets in some areas of China8,11. Therefore, the most likely source of H7N9 virus in these cases seems to be from the environments contaminated with the novel avian influenza virus. Epidemiologically, the elderly patients predominate in the H7N9 avian influenza outbreak, for the reason that retirees have more opportunities to shop in the live animal markets and are, therefore, more likely to be exposed to the environments that are contaminated with H7N9 virus3.
The clinical features of H7N9 virus infection are broadly similar to those of H5N1 virus infection3,8. The laboratory findings including leukopenia, lymphocytopenia, thrombocytopenia and increased levels of aspartate aminotransferase (AST), lactate dehydrogenase (LDH), creatine kinase (CK) and C-reactive protein (CRP) are also commonly seen in patients with H7N9 virus infection3,8. Furthermore, the disease is characterized by bilateral ground-glass opacities and consolidation3,8, as seen in Fig. 1.
Human infection with H7N9 virus shows a case-fatality rate of 31% (109/347), which is not as high as that of H5N1 virus infection (59%)6. The clinical outcome, on the other hand, is inconsistent with that of previous reports on avian influenza A (H7) virus infection, which is usually associated with poultry outbreaks, but causes mild or moderate illness in humans4. It is estimated that the fatality risk is 36% (95% CI 26-45) on admission to hospital for H7N9 virus infection10. Increasing age along with a history of smoking, chronic lung disease, immunosuppression, chronic drug use and delayed antiviral treatment are considered as risk factors which might contribute to the fatal outcome5. According to statistics, the median time from onset of symptoms to initiation of antiviral therapy is 7.4 and 4.6 days in the fatal and non-fatal cases, respectively5. Importantly, the relatively good clinical outcome may be attributed to early diagnosis and antiviral treatment, which are the most effective strategies for managing H7N9 virus infection.
ACKNOWLEDGEMENTS
This work was partly supported by the Medical Education Research Project of Shanghai Jiao Tong University School of Medicine (No. YB130910).
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Associated Data
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Data Citations
- Ministry of Agriculture of the People's Republic of China National poultry H7N9 influenza eradication program (Chinese) [[Cited: Feb 22, 2014]]. Available from: http://www.moa.gov.cn/zwllm/tzgg/tfw/201402/t20140220_3791429.htm.
- World Health Organization Human infection with influenza A (H7N9) virus in China. Global Alert and Response (GAR) [[Cited: Feb 10, 2014]]. Available from: http://www.who.int/csr/don/2013_04_01/en/